Details Details PDF BIBTEX RIS Title Removal of organic compounds from wastewater originating from the production of printed circuit boards by UV-Fenton method Journal title Archives of Environmental Protection Yearbook 2017 Volume vol. 43 Issue No 4 Authors Białecka, Barbara ; Thomas, Maciej ; Zdebik, Dariusz Keywords advanced oxidation process ; response surface methodology ; printed circuits board ; wastewater ; UV-Fenton Divisions of PAS Nauki Techniczne Publisher Polish Academy of Sciences Date 2017.12.15 Type Artykuły / Articles Identifier DOI: 10.1515/aep-2017-0044 ; ISSN 2083-4772 ; eISSN 2083-4810 Source Archives of Environmental Protection; 2017; vol. 43; No 4 References Dunford (2002), Oxidations of iron II III by hydrogen peroxide from aquo to enzyme, Coordination Chemistry Reviews, 233. ; Talinli (1992), Interference of hydrogen peroxide on the standard COD test, Water Research, 26, 107. ; Silver (1994), ISO Water Quality Determination of Chloride nitrate titration with chromate indicator s method, null, 9297. ; Stasinakis (2008), Use of selected advanced oxidation processes for wastewater treatment - a mini, review Global NEST Journal, 10, 376. ; LaDou (2006), Printed circuit board industry, International Journal of Hygiene and Environmental Health, 209. ; Hartinger (1991), Handbook of wastewater and recycling technology for the metalworking industry Verlag Wien in, null. ; Barbusiński (2006), cation of the Fenton reaction using calcium and magnesium peroxides GIG in Polish, null. ; (1484), Water Guidelines for the determination of Total Organic Carbon Dissolved Organic Carbon DOC, Analysis. ; Zieliński (2007), Application of experimental design method in optimization of glucose - based surfactant production process, null, 73. ; Barbusiński (2004), The intensifi cation of wastewater treatment and stabilization of excess sludge using reagent in Polish, null. ; Huang (2009), Treatment of printed circuit board industrial wastewater by Ferrite process combined with method of, Journal Hazardous Materials, 170. ; Thomas (2016), Treatment of wastewater from the photochemical production of printed circuit boards by using Fenton reagent after addition of calcium percarbonate in Polish, null, 11, 134. ; Thomas (null), Treatment of wastewater from the photochemical production of printed circuit boards by using Fenton reagent after addition of disodium percarbonate in Polish, null, 2015. ; Michalski (1992), Technology and assembly of printed circuit boards in Polish, null. ; (2002), ISO Water Quality Determination of sulfate Gravimetric method using barium chloride, null, 9280. ; Coombs (1996), Printed Handbook Fourth New York, Circuits Edition. ; Barbusiński (2003), Discoloration of azo dye Acid Red by reagent in the presence of iron powder, Polish Journal of Environmental Studies, 18, 151. ; Keller (1999), The printed circuit board industry an environmental best practice guide, null. ; (2012), ISO Water Quality Determination of pH, null, 10523. ; Barbusinski (2011), Optimization of the Fenton oxidation of wastewater generated by rape oil soapstock splitting Sustainable, Environmental Progress Energy, 30, 620. ; (2005), ISO Water Quality Determination of the Chemical Oxygen Demand Index Small scale Sealed - tube Method, null, 15705. ; Maha (2014), Tony Experimental design of photo - Fenton reactions for the treatment of car wash wastewater effl uents by Response Surface Methodological Advances in Environmental pp, Analysis Chemistry, 1. ; Grychtolik (1990), treatment III Górniczej in Polish, Wastewater, 1. ; Pouran (null), on the main advances in photo - Fenton oxidation system for recalcitrant wastewaters of and, Review Journal Industrial Engineering Chemistry, 21, 2015. ; Gliklich (2006), The project of wastewater treatment plant in Polish, null, 1. ; Mika (1983), Printed circuits board i Łączności in Polish, null. ; (2007), ISO Water Quality Determination of selected elements by inductively coupled plasma optical emission spectrometry, null, 11885. ; Azami (2012), central composite design for the optimization of the removal of the azo dye methyl orange from wastewater using the Fenton reaction of the, Journal Serbian Chemical Society, 77. ; Cao (2014), Treatment of tetrahydrofuran wastewater by the Fenton process response surface methodology as an optimization tool and, Water Science Technology, 69. ; Barbusiński (2009), Reaction - controversy concerning the chemistry Ecological Chemistry, Engineering, 16, 347. ; Shipley (1994), Company Procedure wastewater treatment of spent sodium hydoxide stripper for use with, null, 2400. ; Parson (2004), Advanced Oxidation Processes for Water and Treatment Publishing, Wastewater.